The new automatic high efficiency gamma spectrometric measuring system was developed in close cooperation of SURO, Institute of Experimental and Applied Physics, Czech Technical University in Prague and NUVIA company. The equipment is intended for sensitive measurement in deep underground laboratories such as LSM Modane (“Zero dose environment“).

Low radon cleanroom for surface or underground laboratories is a new technology able to achieve at the same time very low aerosol concentrations in terms of ISO standard (ISO 1999) and very low radon concentration levels of 10-100 mBq·m-3  (reduce radon concentration in comparison to outdoor by a factor 1000).

In the field of emergency preparedness we can see a general trend to maximize utilization of continuous measurements performed by automatic and autonomous devices. National Radiation Protection Institute (SURO) in collaboration with NUVIA introduced an automatic “stand-alone” system for continuous monitoring of artificial gamma radioactivity in surface water bodies.

Support of Citizen Monitoring in Czechia has been performed for almost ten years based on the results of RAMESIS research project  “Radiation Monitoring network for institutions and schools to ensure early awareness and enhance safety of citizens”.

Although ASTM standard was finally approved and officially published in 2020, and CEN FprEN 10371:2020 is about to be published soon, the validation of the SPT method keeps going amongs laboratories over the world.

The SafeG project was recently approved for co-financing by the EC within the H2020 Euratom programme. SafeG project, coordinated by VUJE company, gathers 15 research organizations and universities from Europe and Japan. The global objective is to further develop the GFR technology and strengthen its safety by solving the open issues concerning the GFR technology and it´s demonstrator ALLEGRO.

Artificial intelligence methods are widely used in various areas of life. Even in the power engineering it is possible to solve many tasks using artificial intelligence and machine learning methods.

What happens to the diffusive properties and the porosity when cement and clay come in contact? At PSI, scientists are studying cement and clay as sealing materials in underground repositories for radioactive waste.

When a spacecraft embarks on a 30-year mission to the outer galaxy, how can we assess whether it is capable of surviving the harsh conditions it will encounter?
One possible answer is by tapping into the accumulated materials science knowledge of the nuclear industry

Public consultation on the procedure for the location, construction and operation of the National Radioactive Waste Repository and Technological Park in Italy